Details

Autor(en) / Beteiligte

• Holz, Maire
• Paterson, Eric
• Pausch, Johanna

Titel

Rhizosphere carbon priming: a plant mechanism to enhance soil nitrogen accessibility?

Ist Teil von

• Plant and soil, 2023-07, Vol.488 (1-2), p.175-185

Ort / Verlag

Cham: Springer International Publishing

Erscheinungsjahr

2023

Quelle

SpringerLink

Beschreibungen/Notizen

• Aims Soil priming affects soil N transformation and plant N availability, but few studies have investigated these interactions to date. Methods To address this, we reviewed the literature for studies quantifying soil priming, soil N transformation and plant N uptake. Results Gross N mineralization was strongly controlled by soil priming in studies with plants, while abiotic factors had a minor influence on gross N mineralization. In contrast, soil priming was negatively related to gross N mineralization and had a low explanatory power in incubation studies where substrates are added as surrogates for root exudates. These results indicate that plants support increased N mineralization and that this is not adequately reflected in incubation studies. Additionally, we observed a positive relationship between soil priming and the % of N org -derived N uptake as well as total N uptake, which demonstrates that priming enhances the availability of N that was previously organically bound and that at least part of the N mineralized during priming was available for plant uptake. Conclusion Our results show that the effect of roots and rhizodeposition leads to a number of processes supporting N mineralization and availability through priming that are not well reflected in incubation studies. To fully capture the interactions between plant roots and their associated microbiota, we recommend focusing research on systems with plants. Additionally, the strong correlation between C and N transformation should be considered in biogeochemical modelling.